Fault mirrors in seismically active fault zones: A fossil of small earthquakes at shallow depths

Li Wei Kuo; Sheng Rong Song; John Suppe; En Chao Yeh

doi:10.1002/2015GL066882

Fault mirrors in seismically active fault zones: A fossil of small earthquakes at shallow depths

Li Wei Kuo^*, Sheng Rong Song, John Suppe, En Chao Yeh

^*此作品的通信作者

地球科學系(含海洋環境研究所)

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

24 引文斯高帕斯（Scopus）

摘要

Fault mirrors (FMs) are naturally polished and glossy fault slip surfaces that can record seismic deformation at shallow depths. They are important for investigating the processes controlling dynamic fault slip. We characterize FMs in borehole samples from the hanging wall damage zone of the active Hsiaotungshi reverse fault, Taiwan. Here we report the first documented occurrence of the combination of silica gel and melt patches coating FMs, with the silica gel resembling those observed on experimentally formed FMs that were cataclastically generated. In addition, the melt patches, which are unambiguous indicators of coseismic slip, suggest that the natural FMs were produced at seismic rates, presumably resulting from flash heating at asperities on the slip surfaces. Since flash heating is efficient at small slip, we propose that these natural FMs represent fossils of small earthquakes, formed in either coseismic faulting and folding or aftershock deformation in the active Taiwan fold-and-thrust belt.

原文	英語
頁（從 - 到）	1950-1959
頁數	10
期刊	Geophysical Research Letters
卷	43
發行號	5
DOIs	https://doi.org/10.1002/2015GL066882
出版狀態	已發佈 - 2016 3月 16

ASJC Scopus subject areas

地球物理
地球與行星科學(全部)

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10.1002/2015GL066882

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引用此

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title = "Fault mirrors in seismically active fault zones: A fossil of small earthquakes at shallow depths",

abstract = "Fault mirrors (FMs) are naturally polished and glossy fault slip surfaces that can record seismic deformation at shallow depths. They are important for investigating the processes controlling dynamic fault slip. We characterize FMs in borehole samples from the hanging wall damage zone of the active Hsiaotungshi reverse fault, Taiwan. Here we report the first documented occurrence of the combination of silica gel and melt patches coating FMs, with the silica gel resembling those observed on experimentally formed FMs that were cataclastically generated. In addition, the melt patches, which are unambiguous indicators of coseismic slip, suggest that the natural FMs were produced at seismic rates, presumably resulting from flash heating at asperities on the slip surfaces. Since flash heating is efficient at small slip, we propose that these natural FMs represent fossils of small earthquakes, formed in either coseismic faulting and folding or aftershock deformation in the active Taiwan fold-and-thrust belt.",

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note = "Funding Information: We thank the reviewer De Paola, two anonymous reviewers, and Editor Andrew V. Newman for their positive and constructive comments. We also thank Jiann-Neng Fang, Dr. Yu-Ting Kuo, and Hsiu-Ching Hsiao for their laboratory support. We thank Hwo-Shuenn Sheu for the technical support for our in situ synchrotron XRD analysis work. All microstructural observation used in this study are available by contacting the corresponding author L.-W. Kuo (liweikuo@ncu.edu.tw). This work was supported by Ministry of Science and Technology (MOST 104-2116-M-008-026 to L.-W. Kuo and MOST 103-2116-M-002-014 to S.-R. Song), National Taiwan University (104R104051 to J. Suppe), and National Natural Science Foundation of China (41330211). Publisher Copyright: {\textcopyright} 2016. American Geophysical Union. All Rights Reserved.",

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AU - Song, Sheng Rong

AU - Suppe, John

AU - Yeh, En Chao

N1 - Funding Information: We thank the reviewer De Paola, two anonymous reviewers, and Editor Andrew V. Newman for their positive and constructive comments. We also thank Jiann-Neng Fang, Dr. Yu-Ting Kuo, and Hsiu-Ching Hsiao for their laboratory support. We thank Hwo-Shuenn Sheu for the technical support for our in situ synchrotron XRD analysis work. All microstructural observation used in this study are available by contacting the corresponding author L.-W. Kuo (liweikuo@ncu.edu.tw). This work was supported by Ministry of Science and Technology (MOST 104-2116-M-008-026 to L.-W. Kuo and MOST 103-2116-M-002-014 to S.-R. Song), National Taiwan University (104R104051 to J. Suppe), and National Natural Science Foundation of China (41330211). Publisher Copyright: © 2016. American Geophysical Union. All Rights Reserved.

PY - 2016/3/16

Y1 - 2016/3/16

N2 - Fault mirrors (FMs) are naturally polished and glossy fault slip surfaces that can record seismic deformation at shallow depths. They are important for investigating the processes controlling dynamic fault slip. We characterize FMs in borehole samples from the hanging wall damage zone of the active Hsiaotungshi reverse fault, Taiwan. Here we report the first documented occurrence of the combination of silica gel and melt patches coating FMs, with the silica gel resembling those observed on experimentally formed FMs that were cataclastically generated. In addition, the melt patches, which are unambiguous indicators of coseismic slip, suggest that the natural FMs were produced at seismic rates, presumably resulting from flash heating at asperities on the slip surfaces. Since flash heating is efficient at small slip, we propose that these natural FMs represent fossils of small earthquakes, formed in either coseismic faulting and folding or aftershock deformation in the active Taiwan fold-and-thrust belt.

AB - Fault mirrors (FMs) are naturally polished and glossy fault slip surfaces that can record seismic deformation at shallow depths. They are important for investigating the processes controlling dynamic fault slip. We characterize FMs in borehole samples from the hanging wall damage zone of the active Hsiaotungshi reverse fault, Taiwan. Here we report the first documented occurrence of the combination of silica gel and melt patches coating FMs, with the silica gel resembling those observed on experimentally formed FMs that were cataclastically generated. In addition, the melt patches, which are unambiguous indicators of coseismic slip, suggest that the natural FMs were produced at seismic rates, presumably resulting from flash heating at asperities on the slip surfaces. Since flash heating is efficient at small slip, we propose that these natural FMs represent fossils of small earthquakes, formed in either coseismic faulting and folding or aftershock deformation in the active Taiwan fold-and-thrust belt.

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Fault mirrors in seismically active fault zones: A fossil of small earthquakes at shallow depths

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